Kunal Nate
Majored in Electrical & Computer Engr
Georgia Institute of Technology, Class of 2016
From Mumbai, India
Georgia Institute of Technology, Class of 2016
From Mumbai, India
Innovative projects bring best out of me. Antenna and RF Designing, I believe, is a very creative and innovative thing to do and I am passionate about it. Prototyping entirely novel -out of the box- ideas and optimizing it for real life application specifically interests me.
Currently, I am pursuing Master of Science in Electrical and Computer Engineering at Georgia Institute of Technology, also working as a research assistant at Athena group.
My thesis research is on novel fully Additively Manufactured High Performance, Low Cost, Multi-layer high frequency antenna designing by using 3D printing and material inkjet printing technology.
Looking for full time job in RF and Antenna Engineering.
For further information please contact me on kunalnate@gmail.com.
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Kunal Nate Receives Degree from Georgia Tech
Kunal Nate of Mumbai, India, has earned a Master of Science in Electrical and Computer Engineering from the Georgia Institute of Technology in Atlanta. Nate was among approximately 3,000 undergrad...
June, 14 2016 - Verified by Georgia Institute of Technology
RF Antenna Design Intern at Cognosos
I. Design and Integration of Planar Rectangular Spiral Antenna operating at 433 MHz frequency in the IoT device
Designed an omnidirectional compact planar rectangular spiral antenna of size 44 X 21 mm with capacitive loading and inverted F element operating at 433 MHz inside the IoT tracking device
Improved radiation efficiency of the antenna to 15.2% on FR-4 and >21% on RO4360G2 by using PIFA analogy
CST MW Studio software for simulation and optimization to improve antenna efficiency from 4.6% to 15.2%
Performed ground clearance and Integration optimization of the antenna with PCB electronic system
In housing tuning and performance optimization on the PCB board in the ABS casing
II. Designed and constructed Wheeler Cap setup to measure Antenna Radiation Efficiency of ESA
Constructed modified wheeler cap with parallel and series RLC circuit equivalent method for measuring electrically small antennas operating at 433 MHz
Solved resonance frequency of the fundamental mode problem with the Matlab post processing and TM mode generation problem by optimization of the wheeler cap dimensions with CST MW simulation to improve radiation efficiency measurement accuracy
January 2016 - Present
Founder and Researcher at Immense Engineering Research Group
Prototyping technological innovations.
July 2013 - Present
